FDDI and SONET by Er.Anup-(IOE)

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Prepared By:- -Er.Anup Bista OPTICAL FIBER COMMUNICATION EX 765 01 NATIONAL COLLEGE OF ENGINEERING TALCHHIKHEL, LALITPUR

description

This slide is very fruitful for those engineering students who give high preference to communication subject like Telecommunication, Optical Fiber Communication and even Wireless communication.

Transcript of FDDI and SONET by Er.Anup-(IOE)

Page 1: FDDI and SONET  by Er.Anup-(IOE)

Prepared By:-

-Er.Anup Bista

OPTICAL

FIBER

COMMUNICATION

EX 765 01

NATIONAL COLLEGE OF ENGINEERING

TALCHHIKHEL, LALITPUR

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Transmission paths run between the workstations

(computers , telephones , fax machines etc.) to

establish connections between them which forms

a collection of interconnected stations is called

NETWORKS

Optical fiber acting as a transmission path

between workstation forming a network is known

as optical fiber network

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The Fiber Distributed Data Interface (FDDI)

specifies a 100-Mbps token-passing, dual-ring

LAN using fiber-optic cable.

It defines the physical layer and media-

access portion of the link layer of OSI model

FDDI is frequently used as high-speed

backbone technology because of its support

for high bandwidth and greater distances

than copper.

It operates at faster speeds, FDDI is similar in

many ways to Token Ring.

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FDDI specifies the use of dual rings. Traffic

on these rings travels in opposite directions.

Physically ,the rings consist of two or more

point-to-point connections between adjacent

stations.

One of the two FDDI rings is called the

primary ring; the other is called the

secondary ring.

The primary ring is used for data

transmission, while the secondary ring is

generally used as a backup or remains idle.

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FDDI defines two types of optical fiber:

single-mode and multimode. A mode is a ray

of light that enters the fiber at a particular

angle.

Multimode fiber uses LED as the light-

generating device.

And single-mode fiber generally uses lasers.

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The FDDI frame format is similar to the

format of a Token Ring frame.

FDDI frames can be as large as 4,500 bytes.

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Preamble:-Gives a unique sequence that prepares each station for an upcoming frame.

Start delimiter:-Indicates the beginning of a frame by employing a signaling pattern that differentiates it from the rest of the frame.

Frame control:-Indicates the size of the address fields and whether the frame contains asynchronous or synchronous data, among other control information.

Destination address:-Contains a uni-cast (singular), multicast (group), or broadcast (every station) address. As with Ethernet and Token Ring addresses, FDDI destination addresses are 6 bytes long.

Source address:-Identifies the single station that sent the frame. As with Ethernet and Token Ring addresses, FDDI source addresses are 6 bytes long.

Data:-Contains either information destined for an upper-layer protocol or control information.

Frame check sequence (FCS):-Is filed by the source station with a calculated cyclic redundancy check value dependent on frame contents (as with Token Ring and Ethernet). The destination address recalculates the value to determine whether the frame was damaged in transit. If so, the frame is discarded.

End delimiter:-Contains unique symbols; cannot be data symbols that indicate the end of the frame.

Frame status:-Allows the source station to determine whether an error occurred; identifies whether the frame was recognized and copied by a receiving station.

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SONET is a synchronous network. A single

clock is used to handle the timing of

transmissions and equipment across the

network.

SONET are standardized protocols that

transfer multiple digital bit streams

over optical fiber using lasers or

highly coherent light from light-emitting

diodes (LEDs).

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SONET defines a technology for carrying many signals of different capacities through a synchronous, flexible, optical hierarchy.

SONET provides :-

− Multiplexing.

− Error checking.

− Handling variations in clocks.

− Mapping of plesiochronous(nearly the same)voice and data traffic.

− Signaling for automatic switching in case of a fiber or node failure.

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SONET encodes bit streams into optical signals

propagated over optical fiber.

All clocks in the network are locked to a common

master clock so that simple TDM can be used.

Multiplexing done by byte interleaving.

SONET defines a hierarchy of signaling levels called

synchronous Transport Signals (STS).

Each STS level (STS-1 to STS-192) supports a

certain data rate, specified in megabits per

second.

The physical links defined to carry each level of

STS are called optical carriers (OCs).

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Increased bandwidth over traditional telecommunication system

Increased configuration flexibility that supports future applications, with variety of transmission rates

Reduction in equipment requirement

An increase in network reliability and many more …

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The basic building block of SONET is the STS-1

frame. The length of this frame is defined by the

number of bits it is possible to transmit in 125us at

the clock rate of the network link.

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9 rows by 90 columns – 810 octets in the frame.

Frame is transmitted from left to right, by row.

Frames are transmitted 8,000 times per second,every 125 μseconds.

STS-1 bit rate is therefore 51.84 Mbps (810 octetsx 8,000 times per second x 8 bits per octet).

This lowest level SONET signal is called aSynchronous

Transport Signal, level 1 (STS-1). Once thescrambler is applied, it is known as an OpticalChannel, level 1 (OC-1).

The lowest level SDH signal is know as aSynchronous Transport Module, level 1 (STM-1).

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STS multiplexer/ demultiplexer:

- Either multiplexes signals from multiple sources intoan STS Or

- Demultiplexes an STS into different destination signals.

Regenerator:

- Function at the data link layer.

- Takes a received optical signal and regenerates it.

- Add a function to those of physical layer repeaters.

- Replaces some of the existing overhead informationwith new information.

Add/drop multiplexer:

- Add signals from different sources into a given path Or

- Remove a desired signal from a path and redirect itwithout demultiplexing the entire signal.

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